Value id_loop(const Position& pos, Move searchMoves[]);
Value root_search(Position& pos, SearchStack* ss, Move* pv, RootMoveList& rml, Value* alphaPtr, Value* betaPtr);
- template <NodeType PvNode, bool SplitPoint>
+ template <NodeType PvNode, bool SpNode>
Value search(Position& pos, SearchStack* ss, Value alpha, Value beta, Depth depth, int ply);
template <NodeType PvNode>
bool value_is_mate(Value value);
Value value_to_tt(Value v, int ply);
Value value_from_tt(Value v, int ply);
- bool move_is_killer(Move m, SearchStack* ss);
bool ok_to_use_TT(const TTEntry* tte, Depth depth, Value beta, int ply);
bool connected_threat(const Position& pos, Move m, Move threat);
Value refine_eval(const TTEntry* tte, Value defaultEval, int ply);
// all this work again. We also don't need to store anything to the hash table
// here: This is taken care of after we return from the split point.
- template <NodeType PvNode, bool SplitPoint>
+ template <NodeType PvNode, bool SpNode>
Value search(Position& pos, SearchStack* ss, Value alpha, Value beta, Depth depth, int ply) {
assert(alpha >= -VALUE_INFINITE && alpha <= VALUE_INFINITE);
bool mateThreat = false;
int moveCount = 0;
int threadID = pos.thread();
+ SplitPoint* sp = NULL;
refinedValue = bestValue = value = -VALUE_INFINITE;
oldAlpha = alpha;
isCheck = pos.is_check();
- if (SplitPoint)
+ if (SpNode)
{
+ sp = ss->sp;
tte = NULL;
ttMove = excludedMove = MOVE_NONE;
- threatMove = ss->sp->threatMove;
- mateThreat = ss->sp->mateThreat;
+ threatMove = sp->threatMove;
+ mateThreat = sp->mateThreat;
goto split_point_start;
}
// Initialize a MovePicker object for the current position
// FIXME currently MovePicker() c'tor is needless called also in SplitPoint
MovePicker mpBase = MovePicker(pos, ttMove, depth, H, ss, (PvNode ? -VALUE_INFINITE : beta));
- MovePicker& mp = SplitPoint ? *ss->sp->mp : mpBase;
+ MovePicker& mp = SpNode ? *sp->mp : mpBase;
CheckInfo ci(pos);
ss->bestMove = MOVE_NONE;
- singleEvasion = !SplitPoint && isCheck && mp.number_of_evasions() == 1;
+ singleEvasion = !SpNode && isCheck && mp.number_of_evasions() == 1;
futilityBase = ss->eval + ss->evalMargin;
- singularExtensionNode = !SplitPoint
+ singularExtensionNode = !SpNode
&& depth >= SingularExtensionDepth[PvNode]
&& tte
&& tte->move()
&& !excludedMove // Do not allow recursive singular extension search
&& (tte->type() & VALUE_TYPE_LOWER)
&& tte->depth() >= depth - 3 * ONE_PLY;
-
- // Step 10. Loop through moves
- // Loop through all legal moves until no moves remain or a beta cutoff occurs
- if (SplitPoint)
+ if (SpNode)
{
- lock_grab(&(ss->sp->lock));
- bestValue = ss->sp->bestValue;
+ lock_grab(&(sp->lock));
+ bestValue = sp->bestValue;
}
+ // Step 10. Loop through moves
+ // Loop through all legal moves until no moves remain or a beta cutoff occurs
while ( bestValue < beta
&& (move = mp.get_next_move()) != MOVE_NONE
&& !ThreadsMgr.thread_should_stop(threadID))
{
- if (SplitPoint)
+ if (SpNode)
{
- moveCount = ++ss->sp->moveCount;
- lock_release(&(ss->sp->lock));
+ moveCount = ++sp->moveCount;
+ lock_release(&(sp->lock));
}
assert(move_is_ok(move));
&& !(threatMove && connected_threat(pos, move, threatMove))
&& bestValue > value_mated_in(PLY_MAX)) // FIXME bestValue is racy
{
- if (SplitPoint)
- lock_grab(&(ss->sp->lock));
+ if (SpNode)
+ lock_grab(&(sp->lock));
+
continue;
}
if (futilityValueScaled < beta)
{
- if (SplitPoint)
+ if (SpNode)
{
- lock_grab(&(ss->sp->lock));
- if (futilityValueScaled > ss->sp->bestValue)
- ss->sp->bestValue = bestValue = futilityValueScaled;
+ lock_grab(&(sp->lock));
+ if (futilityValueScaled > sp->bestValue)
+ sp->bestValue = bestValue = futilityValueScaled;
}
else if (futilityValueScaled > bestValue)
bestValue = futilityValueScaled;
+
continue;
}
}
// Step extra. pv search (only in PV nodes)
// The first move in list is the expected PV
- if (!SplitPoint && PvNode && moveCount == 1)
+ if (!SpNode && PvNode && moveCount == 1)
value = newDepth < ONE_PLY ? -qsearch<PV>(pos, ss+1, -beta, -alpha, DEPTH_ZERO, ply+1)
: - search<PV>(pos, ss+1, -beta, -alpha, newDepth, ply+1);
else
&& !captureOrPromotion
&& !dangerous
&& !move_is_castle(move)
- && !move_is_killer(move, ss))
+ && !(ss->killers[0] == move || ss->killers[1] == move))
{
ss->reduction = reduction<PvNode>(depth, moveCount);
if (ss->reduction)
{
- alpha = SplitPoint ? ss->sp->alpha : alpha;
+ alpha = SpNode ? sp->alpha : alpha;
Depth d = newDepth - ss->reduction;
value = d < ONE_PLY ? -qsearch<NonPV>(pos, ss+1, -(alpha+1), -alpha, DEPTH_ZERO, ply+1)
: - search<NonPV>(pos, ss+1, -(alpha+1), -alpha, d, ply+1);
assert(newDepth - ONE_PLY >= ONE_PLY);
ss->reduction = ONE_PLY;
- alpha = SplitPoint ? ss->sp->alpha : alpha;
+ alpha = SpNode ? sp->alpha : alpha;
value = -search<NonPV>(pos, ss+1, -(alpha+1), -alpha, newDepth-ss->reduction, ply+1);
doFullDepthSearch = (value > alpha);
}
// Step 15. Full depth search
if (doFullDepthSearch)
{
- alpha = SplitPoint ? ss->sp->alpha : alpha;
+ alpha = SpNode ? sp->alpha : alpha;
value = newDepth < ONE_PLY ? -qsearch<NonPV>(pos, ss+1, -(alpha+1), -alpha, DEPTH_ZERO, ply+1)
: - search<NonPV>(pos, ss+1, -(alpha+1), -alpha, newDepth, ply+1);
assert(value > -VALUE_INFINITE && value < VALUE_INFINITE);
// Step 17. Check for new best move
- if (SplitPoint)
+ if (SpNode)
{
- lock_grab(&(ss->sp->lock));
- bestValue = ss->sp->bestValue;
- alpha = ss->sp->alpha;
+ lock_grab(&(sp->lock));
+ bestValue = sp->bestValue;
+ alpha = sp->alpha;
}
- if (value > bestValue && !(SplitPoint && ThreadsMgr.thread_should_stop(threadID)))
+ if (value > bestValue && !(SpNode && ThreadsMgr.thread_should_stop(threadID)))
{
bestValue = value;
if (value > alpha)
{
- if (SplitPoint && (!PvNode || value >= beta))
- ss->sp->stopRequest = true;
+ if (SpNode && (!PvNode || value >= beta))
+ sp->stopRequest = true;
if (PvNode && value < beta) // We want always alpha < beta
alpha = value;
ss->bestMove = move;
}
- if (SplitPoint)
+ if (SpNode)
{
- ss->sp->bestValue = bestValue;
- ss->sp->alpha = alpha;
- ss->sp->parentSstack->bestMove = ss->bestMove;
+ sp->bestValue = bestValue;
+ sp->alpha = alpha;
+ sp->parentSstack->bestMove = ss->bestMove;
}
}
// Step 18. Check for split
- if ( !SplitPoint
+ if ( !SpNode
&& depth >= MinimumSplitDepth
&& ThreadsMgr.active_threads() > 1
&& bestValue < beta
threatMove, mateThreat, moveCount, &mp, PvNode);
}
- if (SplitPoint)
+ if (SpNode)
{
/* Here we have the lock still grabbed */
- ss->sp->slaves[threadID] = 0;
- lock_release(&(ss->sp->lock));
+ sp->slaves[threadID] = 0;
+ lock_release(&(sp->lock));
return bestValue;
}
}
- // move_is_killer() checks if the given move is among the killer moves
-
- bool move_is_killer(Move m, SearchStack* ss) {
-
- if (ss->killers[0] == m || ss->killers[1] == m)
- return true;
-
- return false;
- }
-
-
// extension() decides whether a move should be searched with normal depth,
// or with extended depth. Certain classes of moves (checking moves, in
// particular) are searched with bigger depth than ordinary moves and in
void update_history(const Position& pos, Move move, Depth depth,
Move movesSearched[], int moveCount) {
-
Move m;
H.success(pos.piece_on(move_from(move)), move_to(move), depth);